JP4564574B1 - Communication device - Google Patents

Abstract

Coexistence of wireless video / audio communication and data communication is facilitated.
A wired communication means with a sink side, a first wireless communication means for receiving a video signal from the source side, a second wireless communication means for transmitting and receiving a data signal with the source side, and each communication means A communication control means for controlling communication with the first communication means, and the communication control means relays capability exchange as to whether the sink device and the source device have data communication capability after establishing a wireless link by the first wireless communication device. And capability exchange of whether there is data communication capability between the first radio communication unit and the second radio communication unit and the radio communication unit of the source side communication device via the first radio communication unit And a function of setting that data communication is possible when all of the wireless communication means of the sink device, the source device, and the source side communication device have data communication capability.
[Selection] Figure 4

Description

  The present invention relates to a communication apparatus that wirelessly transmits video / audio signals and data signals.

  Currently, the standardization work of the wireless communication technology using the 60 GHz band is underway in the IEEE 802.15 committee. This wireless communication technology targets a WPAN (Wireless Personal Area Network) which is a wireless network within 10 m. This wireless communication technology can realize gigabit order wireless transmission using a wide band compared to a conventional wireless LAN or Bluetooth. Therefore, it is possible to wirelessly transmit a video / audio signal transmitted by existing wired communication such as HDMI (High Definition Multimedia Interface) capable of transmitting a video / audio signal at high speed.

  As a conventional technique for wirelessly transmitting a video / audio signal, for example, Patent Document 1 discloses a system that wirelessly transmits and receives a video signal in accordance with the HDMI standard. In Japanese Patent Laid-Open No. 2004-133260, a technique is proposed in which the setting information of the display unit can be read at a higher speed than the conventional one by wirelessly transmitting and receiving the setting information of the display unit.

  On the other hand, in the HDMI standard, in recent years, it has been demanded that not only transmission of video / audio signals but also data communication can be performed, and standardization for that purpose is being promoted. According to the above wireless communication technology, not only wireless transmission of video / audio signals but also data communication such as an IP network is limited to communication in which wireless communication devices have a one-to-one relationship due to the strength of directivity. These can be transmitted wirelessly without any trouble.

JP 2008-35517 A

  However, in wired communication, video / audio communication and data communication can be performed simultaneously with one cable, whereas in wireless communication, (1) data communication cannot be supported only in the wireless section. Cannot recognize video equipment. (2) Video signal requires a lot of bandwidth, so video / audio communication and data communication simultaneously reduce video quality. (3) Bandwidth for data communication in the wireless zone (4) If a millimeter wave band with a band is used to perform data communication, the directivity is strong, so that it is not suitable for data communication when there are multiple wireless communication devices and multiple wireless links. In many cases, it is difficult to coexist video / audio communication and data communication. In addition, when trying to use a plurality of wireless systems, there is a problem that the procedure until establishing a secure connection becomes complicated.

  The present invention has been made in view of the above, and in particular, in order to solve one or more of the problems related to wireless communication and to facilitate the coexistence of video / audio communication and data communication,・ Providing a communication device that facilitates the coexistence of video / audio communication and data communication even when devices capable of both audio and data communication and devices capable of only video / audio communication coexist. The purpose is to do.

  In order to solve the above-described problems and achieve the object, the present invention provides a sink-side communication device that is wirelessly connected to a source-side communication device. Wired communication means for transmitting and receiving data signals to and from the transmission and sink devices, and source-side communication that is connected to one of the source devices by a wireless communication method capable of transmitting and receiving at least video / audio signals and video signals A first wireless communication unit that receives a video signal, an audio signal, and a video signal from the device; and a wireless communication method different from a wireless communication method used by the first wireless communication unit; A second wireless communication means for transmitting and receiving a data signal between the wireless communication means, a communication control for performing communication control with respect to the wired communication means, the first wireless communication means and the second wireless communication means. And the communication control means, after establishing a wireless link by the first wireless communication means, performs processing related to a physical address related to use in the communication method in the wired communication means with the sink-side communication device. A function for setting between, and the capability exchange between the sink device and the source device with respect to the sink device or the source device that is the partner, and whether the partner device has a data communication capability or not. The function of relaying via the communication means and the first wireless communication means, and the first wireless communication means, the second wireless communication means and the source side via the first wireless communication means A function for exchanging the capability of whether or not it has the capability of data communication with any wireless communication means of the communication device, the sink device, the source device, and When any of the wireless communication means included in the source side communication device has a data communication capability, the wireless communication performed using the second wireless communication means or the device having the physical address or the communication means And a function of setting that data communication is possible.

The present invention also provides a source-side communication device that is wirelessly connected to a sink-side communication device, a wired communication unit that transmits and receives a video signal and a data signal to and from the source device by wired communication, and a wireless communication unit a wireless communication unit having a first wireless communication means to the transmission of the video signal to the sink-side communication device by at least the video signal and the data signal transmission and reception are enabled wireless communication system, the wired communication means and the radio communication Communication control means for performing communication control with respect to the means, and the communication control means is common to the wired communication means between the communication devices that have established a wireless link after establishing the wireless link by the first wireless communication means. The function exchange between the function of setting the physical address of the device and the capability of data communication performed by the sink device and the source device is performed before Between the wired communication means and the function of relaying via the first wireless communication means, and between the wireless communication means and any one of the wireless communication means of the sink side communication device using the first wireless communication means A function for exchanging capabilities as to whether or not it has data communication capability, and a device having the physical address when the sink device, the source device and the sink side communication device have data communication capability, or And a function for setting that the communication means is capable of data communication.

  According to the present invention, (1) data communication cannot be supported only in the wireless section, but the video equipment cannot recognize it, and (2) video / audio communication and data communication are simultaneously performed because a video signal requires a large bandwidth. (3) The band for data communication may not be available in the wireless section. (4) Because the data communication is also performed, if a millimeter wave band with a band is used, the directivity is strong. Can solve problems such as not suitable for data communication when there are multiple wireless communication devices and multiple wireless links, especially devices that can perform both video / audio communication and data communication Even in the case where only devices that can only be used are mixed, it is possible to facilitate coexistence of video / audio communication and data communication.

FIG. 1 is a diagram illustrating a configuration example for explaining communication establishment according to the HDMI standard and the WirelessHD standard, which are basic functions of a wireless communication apparatus according to an embodiment of the present invention. FIG. 2 is a flowchart for explaining the operation when establishing communication in the system shown in FIG. FIG. 3 is a diagram illustrating an example of a system configuration in which the wireless communication apparatus of this embodiment and each device are connected. FIG. 4 is a flowchart for explaining the operation when establishing communication in the system shown in FIG.

  Hereinafter, an embodiment of a communication device according to the present invention will be described in detail with reference to the drawings. In addition, this invention is not limited by this embodiment. Further, in the drawings attached to the present application and the following description, only main parts related to the present invention will be described, and descriptions of well-known configurations will be omitted.

(Establish communication according to HDMI standard and WirelessHD standard)
In describing a wireless communication apparatus that is an embodiment of a communication apparatus according to the present invention, first, communication establishment according to the HDMI standard and the WirelessHD standard, which are basic functions of the wireless communication apparatus, will be described. In the following, for simplicity of explanation, as shown in FIG. 1, as shown in FIG. 1, the wireless communication devices 200 and 300 use one type of wireless in accordance with the WirelessHD standard that supports HEC (HDMI Ethernet (registered trademark) Channel) in HDMI 1.4. A wireless communication device (200, 300) provided with wireless communication means (WVAN communication unit) using a communication method will be described as an example. In the system illustrated in FIG. 1, a video / audio receiver as a sink device is connected to one of two wireless communication devices connected wirelessly by cable (HDMI), and a video / audio transmission as a source device is connected to the other. It is a system in which the machines are connected by wired (HDMI).

  First, the configuration of the apparatus shown in FIG. 1 is shown. In FIG. 1, reference numeral 100 denotes a video / audio receiver body. Specifically, it is a TV, a projector or the like (hereinafter referred to as TV 100). A video / audio receiving unit 101 receives video / audio signals, performs predetermined signal processing on the received video / audio signals, and outputs them to a display and a speaker (not shown). A data communication unit 102 performs data communication between the TV 100 and another device using an IP network or the like. The HDMI communication unit 103 is a wired communication unit that performs video / audio communication and data communication by wire (in the present embodiment, it is based on the HDMI standard). The video / audio receiving unit 101, the data communication unit 102, and the HDMI communication unit 103 are included in the TV 100.

  Next, reference numeral 200 shown in the figure denotes a wireless communication apparatus that receives video / audio signals and performs data communication. A communication control unit 201 includes a CPU and the like, and controls overall communication of the WVAN communication unit 202 and the HDMI communication unit 203 described below. The WVAN communication unit 202 is a wireless communication unit that performs wireless video / audio signal reception and data communication. In the present embodiment, specifically, a WVAN (wireless video area network) constructed by a wireless communication method capable of video / audio communication such as WirelessHD using a millimeter wave of 60 GHz band is taken as an example.

  203 shown in the figure is a data storage unit that is used by the communication control unit 201 to store information (control program, physical address, etc. for the communication control unit 201) necessary for controlling communication. Specifically, a ROM, a RAM, an HDD, or the like. The description such as “HDMI 1.0.0.0” shown in FIG. 1 and other figures is a physical address based on the HDMI standard of the device or the HDMI communication unit (hereinafter referred to as an HDMI physical address; The address is dynamically allocated) indicates “1.0.0.0” or the like. Similarly, the description such as “WVAN 00: 11: 22: 33: 01” indicates that the physical address on WVAN (this address is uniquely assigned at the time of product shipment) is “00: 11: 22: 33: 01 "or the like.

  300 is a wireless communication apparatus that performs transmission of video / audio signals and data communication (data transmission / reception). The wireless communication apparatus 300 includes a communication control unit 301, a WVAN communication unit 302, an HDMI communication unit 303, and a data storage unit 304. Each of these components has functions similar to those of the communication control unit 201, the WVAN communication unit 202, the HDMI communication unit 203, and the data storage unit 204 provided in the wireless communication apparatus 200.

  Reference numeral 400 shown in the figure denotes a video / audio transmitter body capable of transmitting video / audio signals and performing data communication. Specifically, it is a DVD player, a PC, or the like (hereinafter referred to as a DVD player 400). Reference numeral 401 denotes a video / audio transmission unit that transmits a video / audio signal generated by performing predetermined signal processing on data read from a recording medium such as a DVD disk (not shown). A data communication unit 402 performs data communication between the DVD player 400 and other devices using an IP network or the like. The HDMI communication unit 403 is a wired communication unit that performs video / audio communication and data communication by wire (in the present embodiment, it is based on the HDMI standard). The video / audio transmission unit 401, the data communication unit 402, and the HDMI communication unit 403 are included in the DVD player 400.

  Next, the operation of each device in the system configured as described above will be described with reference to FIGS. FIG. 2 is a flowchart for explaining the operation of the TV 100, the wireless communication devices 200 and 300, and the DVD player 400 in the present embodiment when establishing communication in the system shown in FIG. In the following description, it is assumed that the TV 100 is capable of data communication.

  After the wireless communication devices 200 and 300 are turned on, the TV 100 and the DVD player 400 are connected to the wireless communication devices 200 and 300 with HDMI cables, respectively. Then, the wireless communication devices 200 and 300 detect this connection (step S201). Then, the wireless communication devices 200 and 300 establish wireless communication between the WVAN communication units 202 and 302 in order to transmit video / audio signals (step S202). At this time, the HDMI physical address of the TV 100 serving as the sink device is 0.0.0.0 shown in FIG. In the wireless communication device 200, the communication control unit 201 passes through the HDMI communication unit 203 through the HDMI port of the TV 100 to which the wireless communication device 200 is connected (this port is assigned 1.0.0.0 as the HDMI address). The HDMI physical address (1.0.0.0) of the own device is acquired (step S203). Then, as shown in FIG. 1, its own HDMI physical address is set to 1.0.0.0 (step S204).

  Next, the communication control unit 301 of the wireless communication device 300 acquires the HDMI physical address (1.0.0.0) of the wireless communication device 200, and stores this address as its own HDMI physical address (step S205). The communication control unit 301 assigns an HDMI physical address to each HDMI port based on the HDMI physical address of the own device. The DVD player 400 has its own HDMI physical address (1.0.0 is assigned to the port as an HDMI address 1.1.0.0 by the communication control unit 301) through the connection destination HDMI port. 1.0.0) is acquired and set as an HDMI physical address 1.1.0.0 as shown in FIG. 1 (step S206). Here, when a video / audio receiver such as the TV 100 and a video / audio transmitter such as the DVD player 400 want to perform data communication with each other, it is determined whether or not there is a data communication capability. Consumer Electronics Control) queries the device with the most recent HDMI physical address. Here, CEC is a device control signal and control protocol standardized by HDMI.

  In FIG. 1, the TV 100 as an HDMI device has 0.0.0.0 as its HDMI physical address, 1.0.0.0 for the wireless communication device 300, and 1.1.0 for the DVD player 400. .0 are assigned in the above-described procedure. If the TV 100 wishes to establish data communication at this time, the TV 100 inquires of another device having an HDMI physical address whether or not it has data communication capability (step S207). When data communication is possible between the wireless communication devices 200 and 300 and the DVD player 400 has the capability, the wireless communication device 200 itself can also perform data communication along with a response that data communication from the DVD player 400 is possible. Is returned to the TV 100 together with the respective HDMI physical addresses.

  Specifically, as shown in FIG. 3, when the DVD player 400 has data communication capability (function) (Yes in step S208), the DVD player 400 responds that data communication is possible (step S209). The communication control unit 301 receives this response via the HDMI communication units 303 and 403 (step S210). When data communication is possible between the WVAN communication units 202 and 302 (Yes in step S211), the communication control unit 201 sends a response that the DVD player 400 can perform data communication via the WVAN communication units 202 and 302. Receive (step S212). The communication control unit 201 responds to the TV 100 by CEC that data communication is possible with any of the devices having the HDMI physical addresses 1.0.0.0 and 1.1.0.0 (step S213). Then, a data communication link is established between the responding devices (step S214).

  On the other hand, when data communication is not possible between the wireless communication devices 200 and 300 (that is, between the WVAN communication units 202 and 302) (No in step S211), a response indicating that data communication from the DVD player 400 is possible is wireless. The communication devices 200 and 300 do not relay, and only the communication control unit 201 having the HDMI physical address 1.0.0.0 responds to the TV 100 that data communication is possible (step S215). As a result, the TV 100 recognizes that the DVD player 400 and the wireless communication device 300 do not have the capability.

  On the other hand, if the DVD player 400 does not have a data communication function (No in step S208), the DVD player 400 makes a response indicating that data communication is not possible (step S216), so the TV 100, the wireless communication devices 200, 300 Does not establish a data communication link among the TV 100, the wireless communication devices 200 and 300, and the DVD player 400 (step S217), and ends the series of operations.

  Note that a response indicating that data communication from the DVD player 400 is not possible is performed when the wireless communication devices 200 and 300 do not return a physical address to the TV 100. The TV 100 side determines that the DVD player 400 has no data communication capability because the physical address of the DVD player 400 is not returned. Of course, a response indicating that data communication from the DVD player 400 cannot be performed may be relayed and passed to the TV 100. On the other hand, even if the DVD player 400 can perform data communication, if the data communication cannot be performed between the wireless communication devices 200 and 300 (No in step S211), the wireless communication devices 200 and 300 send a response from the DVD player 400. Although the relay is not performed, the wireless communication devices 200 and 300 may make the TV 100 a proxy reply that data communication from the DVD player 400 cannot be performed under the control of the communication control units 201 and 301.

  Through the above operation, even when a plurality of video / audio transmission devices are wirelessly connected, the TV 100 appropriately exchanges the capability of each device to determine whether or not data communication is possible. It becomes possible to automatically start data communication by WVAN. The above is an example in the case of inquiring about the data communication capability from the TV 100 side, but the signal flow in the reverse direction is also possible from the DVD player 400 side.

(Radio communication apparatus of this embodiment)
In the wireless communication apparatus exemplified above, video / audio communication and data communication can be performed by a wireless communication method (Wireless HD) using a millimeter wave band. Wireless using the millimeter wave band can transmit video / audio signals wirelessly, but has a characteristic of strong directivity as a physical characteristic. This often does not cause a problem because the video / audio signal is one-to-one communication between a video / audio receiver such as a TV and a video / audio transmission device such as a DVD player. However, when performing data communication, especially when using a protocol that can also be broadcast, such as the Internet protocol, when using highly directional millimeter-wave band radio, when broadcasting data to multiple wireless communication devices Can cause problems.

  When video / audio communication and data communication are performed only by a wireless communication system using the millimeter wave band, there is the above-described problem. Therefore, when the HDMI cable that can transmit video / audio signals and data communication is made wireless, the millimeter-wave band radio that is convenient for video / audio signal transmission and the wireless LAN that is convenient for data communication are combined. It is possible to adopt a configuration for making it wireless. However, when such a configuration is adopted, it is easy for a user to establish a wireless link between devices such as a TV and a DVD player because there is no input device such as a keyboard or GUI like a personal computer. It's not easy. Therefore, the present embodiment proposes a wireless communication apparatus that can solve this problem in a configuration in which millimeter wave band wireless (WirelessHD) and a wireless LAN convenient for data communication are combined. As a specific example, FIG. 3 shows a system configuration example in which the wireless communication apparatus of this embodiment and each device are connected.

  In FIG. 3, reference numeral 500 denotes a wireless communication apparatus that performs reception of video / audio signals and data communication (data transmission / reception). A communication control unit 501 includes a CPU and the like, and governs general control related to communication of the HDMI communication unit 506 as a wired communication unit and the WVAN communication unit 503 and the WLAN communication unit 504 described below. A data storage unit 502 is used by the communication control unit 501 to store information necessary for controlling communication. Specifically, they are ROM, RAM, HDD, etc., and include information such as the control program of the communication control unit 501 and the security unit 505 described below, the physical address of the HDMI communication unit 506, the WVAN communication unit 503, and the WLAN communication unit 504. ing.

Reference numeral 503 denotes a WVAN communication unit serving as a first wireless communication unit that receives video / audio signals and performs data communication. Specifically, it is based on a wireless communication method capable of video / audio communication such as WirelessHD using a millimeter wave of 60 GHz band. Reference numeral 504 denotes a WLAN communication unit as a second wireless communication unit that performs data communication. Specifically, communication is performed using a non-directional (or less directional than wireless HD) communication method mainly used for data communication by wireless LAN (for example, WiFi (Wireless Fidelity)) or Bluetooth. Communication means. Also, at least in P2P communication, the communication speed in the WVAN communication unit 503 is faster than that in the WLAN communication unit 504, and is suitable for transmission of uncompressed signals. Each communication unit is configured by dedicated hardware.
In the following, when referred to as data communication, communication is possible using the same communication method such as TCP / IP regardless of whether the WVAN communication unit 503/603 or the WLAN communication unit 506/604 is used. Shall.

  A security unit 505 mainly performs processing for authentication for performing data communication and other security management. Specifically, management of physical addresses that allow connection, and for WiFi, WPS (Wi-Fi Protected Setup), ESSID (extended service set identifier) and WPA2 (Wi-Fi Protected Access 2) security settings, etc. Do. The security unit 505 (and 605 below) automatically generates and exchanges network names and passwords necessary for data communication, and automatically and safely establishes a link for wireless data communication. The security unit 505 can be included in the communication control unit 501 for implementation.

  The description such as “HDMI 1.0.0.0” shown in FIG. 3 indicates that the HDMI physical address of the device or the corresponding HDMI communication unit is “1.0.0.0” or the like. It is. Similarly, “WVAN 00: 11: 22: 33: 01” or the like indicates that the physical address on the WVAN is “00: 11: 22: 33: 01” or the like, and “WLAN aa: bb”. The description such as: cc: dd: 01 "indicates that the physical address on the WLAN is" aa: bb: cc: dd: 01 ".

  Reference numeral 600 shown in the figure denotes a wireless communication apparatus on the source side that transmits video / audio signals and transmits / receives data communication. The communication control unit 601, the data storage unit 602, the WVAN communication unit 603, the WLAN communication unit 604, the security unit 605, and the HDMI communication unit 606 are respectively connected to the communication control unit 501, the data storage unit 502, and the WVAN communication unit 503 of the wireless communication apparatus 500. , The WLAN communication unit 504, the security unit 505, and the HDMI communication unit 506.

  Moreover, 300 shown in the figure has the same configuration as the wireless communication apparatus 300 described above. As shown in FIG. 3, the wireless communication device on the source side includes a WVAN communication unit according to the WirelessHD standard, thereby configuring a WVAN with the wireless communication device 500. Each wireless communication device has a common HDMI physical address as an HDMI device. Accordingly, from other HDMI devices, the source-side wireless communication device and the sink-side wireless communication device are handled as one HDMI device. On the other hand, communication is performed between wireless communication devices based on a physical address on WVAN and a physical address on WLAN.

  Next, the operation of each device in the system configured as described above will be described with reference to FIGS. FIG. 4 is a flowchart for explaining the operation when establishing communication between the TV 100, the wireless communication devices 500 and 600, and the DVD player 400 in the present embodiment. FIG. 4 illustrates a case where a data communication link is finally established. If the WVAN communication unit 503 or 603 is not capable of data communication, the WLAN communication unit 504 or 604 is not present, or the TV 100 or the DVD player 400 does not have data communication capability, the data communication link is not established. A series of operations are terminated.

  The wireless link of the WVAN communication units (first wireless communication units) 503 and 603 is established by the procedure shown in FIG. 2 (step S401), and an HDMI physical address is assigned to each device (step S402).

  If the WVAN communication unit 503 has the data communication capability (Yes in step S403), the wireless communication device transmits the physical address of the WVAN communication unit 503, 603 as a response indicating that it has the capability through the WVAN communication unit 503, 603. The communication control units 501 and 601 exchange between 500 and 600, and the addresses are stored in the data storage units 502 and 602, respectively (step S404).

  Next, when the second wireless communication unit 504 is present (Yes in step S405), the physical address of its own WLAN communication unit 504, 604 is used as a response indicating that it has a capability in the same manner as described above, and the WVAN communication unit 503, 603 is used. Are exchanged by the communication control units 501 and 601 and stored in the data storage units 502 and 602, respectively (step S406). Here, both the WVAN communication units 503 and 603 and the WLAN communication units 504 and 604 use physical addresses conforming to EUI-48, which is a 48-bit address system defined by IEEE 802, which is also used in wireless LAN. , Both addresses are guaranteed to be unique.

  When the WVAN communication units 503 and 603 have the data communication capability after the exchange of the data communication capability regarding the first wireless communication unit 503 and the second wireless communication unit 504 is completed (Yes in step S407). The communication control units 501 and 601 can perform data communication collectively for the physical addresses stored in the data storage units 502 and 602 regardless of the physical addresses of the first and second wireless communication units. (Step S408). Specifically, when the WVAN communication units (first wireless communication units) 503 and 603 have data communication capability, they are stored in the data storage units 502 and 602 with respect to the WVAN communication units 503 and 603. All accesses from the physical address are permitted, and data communication is enabled. Then, a wireless link for data communication is established (step S409).

  On the other hand, if the WLAN communication units (second wireless communication units) 504 and 604 exist (Yes in step S410), the physical addresses stored in the data storage units 502 and 602 after the WLAN communication units 504 and 604 are activated. All accesses from are permitted (step S411). When there is an access from that address, the security units 505 and 605 perform security settings of ESSID (extended service set identifier) and WPA2 (Wi-Fi Protected Access 2) by WPS (Wi-Fi Protected Setup). (Step S412), a data communication link is automatically and securely established (Step S413).

  If the WVAN communication units 503 and 603 have data communication capability, data communication is possible between the WVAN communication units 503 and 603 and between the WLAN communication units 504 and 604 in the step S413. Since the directivity is strong in the WVAN communication units 503 and 603 using the wireless LAN, it is preferable to prioritize data communication by the WLAN communication units 504 and 604. As described above, the data communication link between the TV 100 and the DVD player 400 is established (step S414).

  As described above, when a video / audio communication link via wireless communication is established between each wireless communication device, a wireless data communication link between only desired devices based on a physical address (HDMI physical address) of wired connection is established. Can be established automatically and safely. At this time, not only video / audio communication and data communication are possible, but also when the wireless communication device 300 having only the WVAN communication unit 302 coexists, it is possible to establish a data communication link by the same procedure. . That is, even when a device capable of both video / audio communication and data communication is mixed with a device capable of only video / audio communication, the coexistence of video / audio communication and data communication can be facilitated. it can.

  DESCRIPTION OF SYMBOLS 100 ... TV, 200,300,500,600 ... Wireless communication apparatus, 400 ... DVD player, 101 ... Video / audio receiving unit, 102,402 ... Data communication unit, 103,203,303,403,506,606 ... HDMI Communication unit 201, 301, 501, 601 ... Communication control unit 202, 302, 503, 603 ... WVAN communication unit 204, 304, 502, 602 ... Data storage unit, 504, 604 ... WLAN communication unit, 505, 605 ... Security Department

Claims (12)

A sink side communication device wirelessly connected to the source side communication device,
Wired communication means for transmitting video signals to the sink device and transmitting and receiving data signals to and from the sink device by wired communication;
First wireless communication means for receiving a video signal from a source-side communication device wired to any of the source devices by a wireless communication method capable of transmitting and receiving at least a video signal;
Second wireless communication means for transmitting / receiving a data signal to / from any source side communication device by wireless communication of a method different from the wireless communication method used by the first wireless communication means;
Communication control means for performing communication control for the wired communication means, the first wireless communication means, and the second wireless communication means,
The communication control means includes
After establishing a wireless link by the first wireless communication means,
A function of performing processing related to a physical address used in a communication method in the wired communication means with the sink-side communication device;
A function of relaying the capability exchange as to whether the sink device and the source device have the capability of data communication via the wired communication means and the first wireless communication means;
Using the first wireless communication means, a function for exchanging capability as to whether or not it has data communication capability with the source side communication device;
When the sink device, the source device, and the source-side communication device have data communication capability, data communication is possible with communication means having a physical address for wireless communication performed using the second wireless communication means. And a function for setting as a communication device. The first wireless communication means is more directional than the second wireless communication means,
2. The communication apparatus according to claim 1, wherein the first wireless communication unit can receive a video signal in parallel with the data communication performed by the second wireless communication unit. The communication apparatus according to claim 1, wherein the communication control unit does not relay the capability exchange in response to a response that the sink device or the source device does not have a data communication capability.   When the communication apparatus does not have the ability to perform data communication at the time of the capability exchange as to whether or not it has the ability to perform data communication, the communication control means responds by proxy as having no data communication capability. The communication device according to claim 1.   The communication apparatus according to claim 1, wherein the communication control unit performs control so that the physical address of the corresponding apparatus is returned as a response in the capability exchange when data communication is possible.   When the physical address is not returned as a response to the capability exchange as to whether or not it has the capability to perform data communication, the communication control means determines that the counterpart device does not have the data communication capability. The communication device according to claim 5, wherein: A source side communication device wirelessly connected to the sink side communication device,
Wired communication means for transmitting and receiving video signals and data signals to and from the source device by wired communication;
As wireless communication means, a radio communication unit having a first wireless communication means to the transmission of the video signal to the sink-side communication device by at least the video signal and the data signal transmission and reception are enabled wireless communication system,
Communication control means for performing communication control for the wired communication means and the wireless communication means,
The communication control means includes
After establishing a wireless link by the first wireless communication means,
A function of setting a common physical address related to the wired communication means between communication devices that have established a wireless link;
A function of relaying the capability exchange as to whether the sink device and the source device have the capability of data communication via the wired communication means and the first wireless communication means;
Using the first wireless communication means, a function for exchanging capabilities as to whether or not the wireless communication means and any of the wireless communication means included in the sink side communication device have data communication capabilities;
When the sink device, the source device, and the sink-side communication device have data communication capability, the device or communication means having the physical address has a function of setting that data communication is possible. A communication device. The wireless communication means further includes second wireless communication means for transmitting and receiving data signals by wireless communication using a method different from the wireless communication method used by the first wireless communication device,
The first wireless communication means is more directional than the second wireless communication means,
8. The communication apparatus according to claim 7, wherein the video signal can be received by the first wireless communication unit in parallel with the data communication by the second wireless communication unit.   The communication control means does not relay the capability exchange in response to a response from the sink device or source device that the sink device or source device does not have a data communication capability. 8. The communication device according to 7.   When the communication apparatus does not have the ability to perform data communication at the time of the capability exchange as to whether or not it has the ability to perform data communication, the communication control means responds by proxy as having no data communication capability. The communication apparatus according to claim 7, characterized in that:   The communication apparatus according to claim 7, wherein the communication control unit performs control so that the physical address of the corresponding apparatus is returned as a response in the capability exchange when data communication is possible.   When the physical address is not returned as a response to the capability exchange as to whether or not it has the capability to perform data communication, the communication control means determines that the counterpart device does not have the data communication capability. The communication apparatus according to claim 11, characterized in that:

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